SPRACI9A October   2018  – July 2021 AM6526 , AM6528 , AM6546 , AM6548

 

  1.   Trademarks
  2. 1Introduction
  3. 2Recommendations Specific to the AM65x/DRA80x
    1. 2.1  EVM versus Data Sheet
    2. 2.2  Power
    3. 2.3  Reset
    4. 2.4  Boot Modes
    5. 2.5  Unused Signals
    6. 2.6  Clocking
    7. 2.7  System Issues
    8. 2.8  Low Power Considerations
    9. 2.9  DDR
    10. 2.10 MMC
    11. 2.11 OSPI and QSPI
    12. 2.12 GPMC NAND
    13. 2.13 I2C
    14. 2.14 CPSW Ethernet
    15. 2.15 ICSSG
    16. 2.16 USB
    17. 2.17 SERDES - USB3
    18. 2.18 SERDES - PCIe
    19. 2.19 JTAG and EMU
  4. 3References
  5. 4Revision History

Power

  • Have you used the output of the power model and estimates from the rest of your design to determine the power solution needed? The power needed for each rail of the AM65x/DRA80x SoC varies based on the interfaces used and the environment in which it is operating. Power requirements must be determined using the power model.
  • Have you checked that the correct voltages are applied to the correct power pins on the device? The AM65x/DRA80x SoC includes a number of power rails that must be powered with the correct voltage for proper operation.
  • Have you checked that all signals connected to each of these domains are operating at the expected voltage level? The AM65x/DRA80x SoC includes twelve dual-voltage I/O domains configured for either 3.3 V or 1.8 V. All signals connected to these domains must match the voltage level provided to the associated VDDSHVx supply rail. The AM65x/DRA80x I/O buffers are not failsafe. The voltage for the VDDSHVx rail must be present before any voltage is applied to the associated I/Os.
  • Have you checked that the VDDS[2:0]_WKUP and VDDS[8:0] for all rails configured for 1.8 V are connected to the 1.8-V I/O power supply? Have you checked that the VDDS[2:0]_WKUP and VDDS[8:0] for all rails configured for 3.3 V are connected to the proper internal LDO? To sequence correctly, VDDS[2:0]_WKUP and VDDS[8:0] must be supplied by either the 1.8-V I/O power supply or an internal I/O bias LDO, depending on the voltage of the rail.
  • Do you have the proper capacitor value connected to each output of the internal LDOs? The AM65x/DRA80x SoC includes seventeen internal LDOs with the output of each connected to a pin on the device. The LDOs require an output capacitor connected to each of these pins.
  • Does your design meet the power sequencing requirement in the data manual? Proper power supply sequencing in proper correlation with resets and clocks is required. For the recommended power sequencing requirements, see the device-specific data sheet.
  • Are the filters specified in the Technical Reference manual included for the VDDA_x supply pins? AM65x/DRA80x devices contain multiple analog power pins that provide power to sensitive analog circuitry such as PLLs, DLLs, and SERDES buffers and terminations. These must be attached to filtered power sources.
  • Does your design include the correct termination for your selected DDR interface type? The DDR3 and DDR4 interfaces both require a VTT termination at the end of the flyby chain for the DDR address, command and control. The VTT termination voltage is generated using a special push/pull termination regulator specifically designed to meet the VTT requirements.
  • Are the DDR_VREF0 and DDR_VREF_ZQ pins left unconnected with no external voltage applied? The AM65x/DRA80x generates the DDR reference voltage internally. The DDR_VREF0 and DDR_VREF_ZQ pins are intended for observation only.
  • Has the PDN analysis been performed and are the proper values and number of bypass capacitors included in your design? Use low ESL capacitors and mount them with short traces to keep the mounting inductance very low. This is required to meet the specified PDN impedance. For more details, see Sitara Processor Power Distribution Networks: Implementation and Analysis.
  • Does your design include properly implemented current measurement capabilities? Zero ohm resistors in line with core and other power sections of the board are recommended for initial PCB prototype builds if you want to measure power. You should then remove the resistor in production builds and connect the power planes with wide copper or multiple vias. Power measurement is the purpose of these resistors in the EVM designs. The implementation of these resistors adds inductance and resistance that can impair power supply and power distribution performance. Current measurement on a single part should never be substituted for the values provided by the Power Model spreadsheet.